This disclosure relates to oligonucleotides, compositions and methods useful for reducing PCSK9 expression, particularly in hepatocytes. Disclosed oligonucleotides for the reduction of PCSK9 expression may be double-stranded or single-stranded, and may be modified for improved characteristics such as stronger resistance to nucleases and lower immunogenicity. Disclosed oligonucleotides for the reduction of PCSK9 expression may also include targeting ligands to target a particular cell or organ, such as the hepatocytes of the liver, and may be used to treat hypercholesterolemia, atherosclerosis, and/or one or more symptoms or complications thereof.

The present disclosure relates to a transgenic plant cell comprising polynucleotide sequences encoding glycolate dehydrogenase, malate synthase, and an inhibitory polynucleotide targeting an endogenous glycolate transporter Plgg1, wherein expression of endogenous glycolate transporter Plgg1 in the transgenic plant cell is about 20% to 80% of expression of endogenous glycolate transporter Plgg1 in a plant cell that is not transformed with an inhibitory polynucleotide targeting an endogenous glycolate transporter Plgg1. Also disclosed are transgenic plants, transgenic plant cultures, and methods for increasing photosynthesis efficiency in plants. The disclosed methods enhance biomass productivity and reduce the negative impact of photorespiration and introduction of transgenic constructs on plant growth.

Provided herein are methods, compounds, and compositions for reducing expression of GYS1 in an individual. Such methods, compounds, and compositions are useful to treat, prevent, delay, or ameliorate a glycogen storage disease or disorder in an individual in need.

The present invention relates, in general to agents that modulate the pharmacological activity of siRNAs. In addition, the invention relates generally to methods and systems for use in assessing the efficacy and safety of a pharmaceutical composition for use in the treatment or prophylaxis of a disease.

The present invention contemplates that complement receptor 1 and 2 may play a role in the induction of regulatory B cells under inflammatory conditions that accompany immune-mediated diseases. For example, long noncoding RNA may regulation transcription of the complement receptor I gene, thereby resulting in an induction and/or suppression of regulatory B cells. Such long noncoding RNA in mature B cells may be specifically targeted to modify complement receptor 1 levels and induce or suppress the generation of antigen-specific regulatory B cells, thereby modifying the course of immune mediated diseases including, but not limited to, autoimmune disease, cancer, and infection.

The disclosure provides biomarkers for diagnosis and monitoring of transthyretin (TTR) amyloidosis. The disclosure further provides methods for selection of agents for treatment of TTR amyloidosis using the biomarkers. The disclosure further provides kits for practicing the methods provided herein.

The present disclosure provides methods of identifying non-productive splice sites in target RNA transcripts and antisense oligonucleotides that increase the expression of said target RNA transcripts. In an embodiment, the target RNA transcript comprises ADAR, ARSA, ATPIA2, CACNAIA, DNMI, EIF2BI, EIF2B2, EIF2B5, IDUA, MFSD8, NF2, NPC1L PEXI, PRICKLE2, PRRT2, RAM, SETD5, SHANKS, SLC6A1, STXBPI, STX1B, and TCF4.

This disclosure relates to novel SARS-CoV-2 targeting sequences. Novel SARS-CoV-2 targeting oligonucleotides for the treatment of SARS-CoV-2 infection are also provided.

The present disclosure provides methods of treating a subject having decreased bone mineral density or at risk of developing decreased bone mineral density, and methods of identifying subjects having an increased risk of developing decreased bone mineral density.

Provided are oligomeric compounds, methods, and pharmaceutical compositions for reducing the amount or activity of IFNAR1 RNA in a cell or animal, and in certain instances reducing the amount of IFNAR1 protein in a cell or animal Such oligomeric compounds, methods, and pharmaceutical compositions are useful to treat diseases and conditions associated with neuroinflammation, including Aicardi-Goutières Syndrome, stroke, neuropsychiatric systemic lupus erythematosus, neuroinflammation following traumatic brain injury, neuro-autoimmune disorders, Alzheimer's disease, post-operative delirium and cognitive decline, cranial radiation-induced cognitive decline, viral infection-induced cognitive decline, neuromyelitis optica, and ataxia telangiectasia.